Samples from New Zealand and Australia have been tested in an adiabatic oven to assess the effect of rank on the R-70 selfheating rate of coal. A non-linear relationship can be defined for coals from both countries using the revised Suggate rank (S-r) parameter. Subbituminous coals have the highest R-70 self-heating rate values, which are 20 times that of high volatile A bituminous coals on a dry mineral matter free basis (similar to 1 cf. 20 degrees C h(-1)). However, the moderating effects of moisture and mineral matter can reduce this difference to only 2-3 times for coal in-situ. (c) 2005 Elsevier B.V All rights reserved
Coal self-heating leading to spontaneous ignition is an on-going safety and environmental issue for ...
Eight Australian coking coal samples (R<sub>vMax</sub> from 0.8 to 1.6) from six different basins we...
This study investigates the effects of temperature gradient and coal particle size on the critical s...
Pulverised New Zealand coal samples have been tested from an initial temperature of 40 degreesC and ...
Borecore samples from the Trap Gully pit at Callide have been assessed using the R-70 self-heating t...
A 2-m, adiabatic column has been successfully refurbished and recommissioned for coal self-heating r...
An adiabatic testing procedure for determining the self-heating propensity of coal has been evaluate...
Adiabatic self-heating tests have been conducted on subbituminous coal cores from the same seam prof...
The acceleration of coal self-heating has long been attributed to the presence of reactive pyrite. H...
The R70 test is a good indicator of coal reactivity to oxygen and is commonly used to provide a rati...
A research and testing facility has been developed at Simtars to allow the spontaneous combustion te...
Tightly constrained experimental thermogravimetry proves to be effective for characterising the effe...
Self-heating of coal depends partly on intrinsic, coal-related factors. This article aims to discuss...
Tightly constrained thermogravimetric experimental procedures (particle size < 212 mu m, sample m...
A new two-metre column self-heating test procedure has been developed at the University of Queenslan...
Coal self-heating leading to spontaneous ignition is an on-going safety and environmental issue for ...
Eight Australian coking coal samples (R<sub>vMax</sub> from 0.8 to 1.6) from six different basins we...
This study investigates the effects of temperature gradient and coal particle size on the critical s...
Pulverised New Zealand coal samples have been tested from an initial temperature of 40 degreesC and ...
Borecore samples from the Trap Gully pit at Callide have been assessed using the R-70 self-heating t...
A 2-m, adiabatic column has been successfully refurbished and recommissioned for coal self-heating r...
An adiabatic testing procedure for determining the self-heating propensity of coal has been evaluate...
Adiabatic self-heating tests have been conducted on subbituminous coal cores from the same seam prof...
The acceleration of coal self-heating has long been attributed to the presence of reactive pyrite. H...
The R70 test is a good indicator of coal reactivity to oxygen and is commonly used to provide a rati...
A research and testing facility has been developed at Simtars to allow the spontaneous combustion te...
Tightly constrained experimental thermogravimetry proves to be effective for characterising the effe...
Self-heating of coal depends partly on intrinsic, coal-related factors. This article aims to discuss...
Tightly constrained thermogravimetric experimental procedures (particle size < 212 mu m, sample m...
A new two-metre column self-heating test procedure has been developed at the University of Queenslan...
Coal self-heating leading to spontaneous ignition is an on-going safety and environmental issue for ...
Eight Australian coking coal samples (R<sub>vMax</sub> from 0.8 to 1.6) from six different basins we...
This study investigates the effects of temperature gradient and coal particle size on the critical s...